[1] 邹照华,何素芳,韩彩芸,等. 重金属废水处理技术研究进展[J]. 水处理技术,2010,36(6):17-19. ZOU Zhaohua,HE Sufan,HAN Caiyun,et al. Progress of heavy metals liquid waste processing technique[J]. Technology of Water Treatment,2010,36(6):17-19.
[2] 袁绍军,姜斌. 电解法净化含重金属离子废水的试验研究[J]. 化学工业与工程,2003,20(1):7-9. YUAN Shaojun,JIANG Bin. Study on purifying wastewater containing heavy metal ion by electrolytic method[J]. Chemical Industry and Engineering,2003,20(1):7-9.
[3] 谭义秋. 木薯交联羧甲基淀粉对Cr3+的吸附研究[J]. 湖北农业科学,2014,53(12):2784-2785. TAN Yiqiu. Cr3+ adsorption with cassava cross-linking carboxymethylated starch[J]. Hubei Agricultural Sciences,2014,53(12):2784-2785.
[4] DABROWAKI A,HUBICKI Z,PODKOSCIELNY P,et al. Selective removal of heavy metal ions from water and industrial wastewaters by ion-exchange method[J]. Chemosphere,2004,56(2):91.
[5] LI Yuzhou,LI Hui,LU Cuimei,et al. Preparation,characterization of nicoine imprinted polymers and it's adsorption behavir toward nicotine in tobacco smoking[J]. Journal of Functional Materials,2013,44(9):1289-1293.
[6] ABDEL-SHAFY H,HEGAMANM W,GULDNER C. Fate of heavy metals via chamical-biological upgrading of sewage sludge treatmentplant[J]. Environmental Management and Health,1996,7(3):28-36.
[7] 张雷,李丹君,李晶,等. 淀粉基炭的制备及其对重金属离子的吸附性[J]. 精细化工,2010,27(5):476-479. ZHANG Lei,LI Danjun,LI Jing,et al. Fabrication of starch-based carbon and adsorption capacity for heavy metal ions[J]. Fine Chemical,2010,27(5):476-479.
[8] LI Y J,XIANG B,NI Y M. Removal of Cu(Ⅱ) from aqueous solutions by chelating starch derivatives[J]. Journal of Applied Polymer Science,2004,92(4):3881-3885.
[9] 谢鹏远,王建坤,李凤艳. 多孔马铃薯淀粉对亚甲基蓝的吸附行为研究[J]. 离子交换与吸附,2016,32(1):14-24. XIE Pengyuan,WANG Jiankun,LI Fengyan. Adsorption behaviors of methylene blue on porous potato starch[J]. Ion Exchange and Adsorption,2016,32(1):14-24.
[10] 汪源浩,具本植,张淑芬. 高黏度、高热稳定性羧甲基淀粉己酸酯的溶液性质[J]. 化工学报,2013,64(1):275-282. WANG Yuanhao,JU Benzhi,ZHANG Shufen. Aqueous solution properties of carboxymethyl starch hexanoate with high viscosity and thermal stability[J]. CIESC Journal,2013,64(1):275-282.
[11] 谭义秋,黄祖强. 木薯羧甲基淀粉对Cu(Ⅱ)的吸附行为和机理[J]. 精细化工,2012,29(1):58-61. TAN Yiqiu,HUANG Zuqiang. Adsorption behavior and mechanism of cassava carboxymethyl starch on Cu(Ⅱ)[J]. Fine Chemicals,2012,29(1):58-61.
[12] CHANSHYAM S C,SAROJ C J,MONIKA V. Post functionalization of carboxymethylated starch and acrylonitrile based networks through amidoximation for use as ion sorbents[J]. Carbohydrate Polymers,2006,66:435-443.
[13] SHI Haixin,YIN Yanzhen,JIAO Shifei. Preparrtion and characterization of carboxymethyl starch under ultrasound-microwave synergistic interaction[J]. Journal of Applied Polymer Science,2014,40906:1-8.
[14] 邹丽霞,邹建国,冯荣华. 微波法合成羧甲基淀粉[J]. 化工进展,2003,22(12):1319-1322. ZOU Lixia,ZOU Jianguo,FENG Ronghua. Preparation of carboxymethyl starch using microwave method[J]. Chemical Industry and Engineering Progress,2003,22(12):1319-1322.
[15] 周睿,曹龙奎,包鸿慧. 交联羧甲基玉米淀粉对水溶液中铅离子吸附性能的优化研究[J]. 环境工程学报,2009,10(3):1793-1799. ZHOU Rui,CAO Longkui,BAO Honghui. Study on adsorption perform ante of cross-linked carboxymethyl corn starch on lead ions in aqueous solution[J]. Chinese Journal of Environmental Engineering,2009,10(3):1793-1799.
[16] 张镜吾,赵桂英,时雨荃,等. 羧甲基淀粉醚取代度的测定方法[J]. 天津化工,1989(4):53-55. ZHANG Jinwu,ZHAO Guiying,SHI Yuquan,et al. Determination method of the degree of sustitution in carboxymethyl starch ether[J]. Tianjin Chemical Industry,1989(4):53-55.
[17] 李毅. 羧甲基淀粉钠取代度的测定方法[J]. 山西化工,2003,23(1):15-17. LI Yi. Determination method of the degree of sustitution in carboxymethyl starch[J]. Shanxi Chemical Indusity,2003,23(1):15-17.
[18] 常贵娟,肖武,李祥村,等. 乳液交联法制备多孔淀粉及其吸附性能[J]. 化工进展,2015,34(5):1290-1295. CHANG Guijuan,XIAO Wu,LI Xiangcun,et al. Preparation and adsorption properties of porous starch prepared by emulsion crosslinking method[J]. Chemical Industry and Engineering Progress,2015,34(5):1290-1295.
[19] 颜朝国.有机化学[M].北京:化学工业出版社,2009:303-305. YAN Chaoguo.Organic chemistry[M].Beijing:Chemical Industry Press,2009:303-305.
[20] 谭义秋,黄祖强,农克良. 高取代度木薯羧甲基淀粉的合成及表征[J]. 过程工程学报,2010,10(1):173-178. TAN Yiqiu,HUANG Zuqiang,NONG Keliang. Synthesis and characterization of high degree of substitution cassava carboxymethyl starch[J]. The Chinese Journal of Process Engineering,2010,10(1):173-178.
[21] 赵瑞玉,姜翠玉. 高取代度羧甲基淀粉醚合成条件的优化[J]. 精细石油化工,2006(4):9-12. ZHAO Ruiyu,JIANG Cuiyu. The optimization of synthesis condition for sodium carboxymethyl starches with high degree of substitution[J]. Speciality Petrochemicals,2006(4):9-12.
[22] 袁怀波,马源,焦浩,等. 交联-羧甲基红薯淀粉的制备及性质研究[J]. 食品与发酵工业,2006,32(12):69-71. YUAN Huaibo,MA Yuan,JIAO Hao,et al. The preparation and property of crosslinked carboxymethyl starch from sweet potato[J]. Food and Fermentation Industries,2006,32(12):69-71.
[23] 赵学智,邵自强,王文俊. 淀粉衍生物的研究及应用[J]. 广州化学,2007,32(1):56-61. ZHAO Xuezhi,SHAO Ziqiang,WANG Wenjun. Research and application of starch derivatives[J]. Guangzhou Chemistry,2007,32(1):56-61.
[24] 张晓东,刘馨. 高取代度羧甲基淀粉的合成与性能研究[J]. 纺织学报,2003,24(6):44-46. ZHANG Xiaodong,LIU Xin. Study on synthesis and properties of carboxymethyl starch with high degree of substitution[J]. Journal of Textile Research,2003,24(6):44-46. |